# Determining neighbours of cell two dimensional list

I have a list of lists, something like

`[[1, 2, 3,],[4, 5, 6,],[7, 8, 9]]`.

Represented graphically as:

``````1 2 3
4 5 6
7 8 9
``````

I'm looking for an elegant approach to check the value of neighbours of a cell, horizontally, vertically and diagonally. For instance, the neighbours of  are ,  and  or the numbers 2, 5, 6.

Now I realise, I could just do a bruteforce attack checking every value a la:

``````[i-1][j]
[i][j-1]
[i-1][j-1]
[i+1][j]
[i][j+1]
[i+1][j+1]
[i+1][j-1]
[i-1][j+1]
``````

But thats easy, and I figured I can learn more by seeing some more elegant approaches.

• Do you want to get the indices or the values? And do you want a function that can do random access on every index or a function that returns a list of (val, neighbors_of_val) pairs? -- Just getting the indices is too simple for a elegant solution, but what you really want to do might be more interesting Oct 25, 2009 at 13:48
• Either or - I deliberately left this question fairly general so people wouldn't feel constrained. Oct 25, 2009 at 13:49

``````# Size of "board"
X = 10
Y = 10

neighbors = lambda x, y : [(x2, y2) for x2 in range(x-1, x+2)
for y2 in range(y-1, y+2)
if (-1 < x <= X and
-1 < y <= Y and
(x != x2 or y != y2) and
(0 <= x2 <= X) and
(0 <= y2 <= Y))]

>>> print(neighbors(5, 5))
[(4, 4), (4, 5), (4, 6), (5, 4), (5, 6), (6, 4), (6, 5), (6, 6)]
``````

I don't know if this is considered clean, but this one-liner gives you all neighbors by iterating over them and discarding any edge cases.

• What if the "board" is `10201x10201`? Nov 22, 2015 at 19:00
• @CF84: Then the constants `X` and `Y` would need to have different values assigned to them. Do you have an issue regarding this—what's your point? Jan 26, 2017 at 21:27
• @CDspace how does the edit deviate from the original intent of the post? If you mean the one-liner, it can still be written on one line with a normal function. Also, it hasn't been a one-liner anyway since the previous edit. At least the uppercase X and Y variables should be changed, since they are hard to spot.
– skrx
Feb 28, 2017 at 23:41
• Why doesn't `print(neighbors(10, 9))` return empty set, when I am giving a value out of range? Jun 20, 2021 at 18:45
• I think the conditions are wrong. they should be (-1 < x <X) and (-1 < y < Y) and 0 <= x2 <X) and (0 <= y2 < Y). Note omitting = in front of array size X and Y. Sep 15, 2021 at 10:31

Assuming you have a square matrix:

``````from itertools import product

size = 3

def neighbours(cell):
for c in product(*(range(n-1, n+2) for n in cell)):
if c != cell and all(0 <= n < size for n in c):
yield c
``````

Using `itertools.product` and thanks to Python's yield expression and star operator, the function is pretty dry but still readable enough.

Given a matrix size of 3, you can then (if needed) collect the neighbours in a `list`:

``````>>> list(neighbours((2,2)))
[(1, 1), (1, 2), (2, 1)]
``````

What the function does can be visualized as follows: • hi, this looks great. But what about an matrix with unequal row and col numbers, like 2*4 array?
– Xue
Aug 19, 2020 at 18:04
• @Xue having the matrix width and height as a tuple, e.g. `size = [3, 4]` you can check whether `c` and `c` are larger than (or equal to) zero and smaller than `size` and `size` respectively. E.g. `0 <= i < bound for i, bound in zip(c, size)`. Dec 9, 2021 at 11:21

mb...

``````from itertools import product, starmap

x, y = (8, 13)
cells = starmap(lambda a,b: (x+a, y+b), product((0,-1,+1), (0,-1,+1)))

// [(8, 12), (8, 14), (7, 13), (7, 12), (7, 14), (9, 13), (9, 12), (9, 14)]
print(list(cells)[1:])
``````
• I don't understand this answer, and I ran it along with the question's example in Python 2.7. Jul 14, 2012 at 22:34
• How would you add a check to make sure the coordinates don't exceed the bounds of the matrix? Jul 17, 2020 at 6:57
``````for x_ in range(max(0,x-1),min(height,x+2)):
for y_ in range(max(0,y-1),min(width,y+2)):
if (x,y)==(x_,y_): continue
# do stuff with the neighbours

>>> a=[[1, 2, 3], [4, 5, 6], [7, 8, 9]]
>>> width=height=3
>>> x,y=0,2
>>> for x_ in range(max(0,x-1),min(height,x+2)):
...   for y_ in range(max(0,y-1),min(width,y+2)):
...     if (x,y)==(x_,y_): continue
...     print a[x_][y_]
...
2
5
6
``````

If someone is curious about alternative way to pick direct (non-diagonal) neighbors, here you go:

``````neighbors = [(x+a, y+a) for a in
[(-1,0), (1,0), (0,-1), (0,1)]
if ( (0 <= x+a < w) and (0 <= y+a < h))]
``````

There's no cleaner way to do this. If you really want you could create a function:

``````def top(matrix, x, y):
try:
return matrix[x][y - 1];
except IndexError:
return None
``````
• @ Kaizer.se: Thanks, wasn't sure which one it was and too lazy to look it up or try it. Oct 25, 2009 at 18:06
• +1 this is not a complete solution, but interesting since that could be quite a Pythonic way to search for neighbors -- it's EAFP Oct 25, 2009 at 19:38
• This actually won't work. I was doing a similar solution and realized this. Negative indexes actually used for looking up the index in reverse order. For example -1 means the last element. Mar 27, 2019 at 4:54

``````(x - 1, y - 1) (x, y - 1) (x + 1, y - 1)
(x - 1, y)     (x, y)     (x + 1, y)
(x - 1, y + 1) (x, y + 1) (x + 1, y + 1)
``````

So the horizontal neighbors of (x, y) are (x +/- 1, y).

The vertical neighbors are (x, y +/- 1).

Diagonal neighbors are (x +/- 1, y +/- 1).

These rules apply for an infinite matrix. To make sure the neighbors fit into a finite matrix, if the initial (x, y) is at the edge, just apply one more restriction to the coordinates of neighbors - the matrix size.

``````>>> import itertools
>>> def sl(lst, i, j):
il, iu = max(0, i-1), min(len(lst)-1, i+1)
jl, ju = max(0, j-1), min(len(lst)-1, j+1)
return (il, iu), (jl, ju)

>>> lst = [[1, 2, 3], [4, 5, 6], [7, 8, 9]]
>>> tup = 0, 2
>>> [lst[i][j] for i, j in itertools.product(*sl(lst, *tup)) if (i, j) != tup]
[2, 5, 6]
``````

I don't know how elegant it seems to you, but it seems to work w/o any hard-coding.

This generates all indices:

``````def neighboring( array ):
nn,mm = len(array), len(array)
offset = (0,-1,1) # 0 first so the current cell is the first in the gen
indices = ( (i,j) for i in range(nn) for j in range(mm) )
for i,j in indices:
all_neigh =  ( (i+x,j+y) for x in offset for y in offset )
valid = ( (i,j) for i,j in all_neigh if (0<=i<nn) and (0<=j<mm) ) # -1 is a valid index in normal lists, but not here so throw it out
yield valid.next(), valid ## first is the current cell, next are the neightbors

for (x,y), neigh in neighboring( l ):
print l[x][y], [l[x][y] for x,y in neigh]
``````

If lambdas daunt you here you are .But lambdas make your code look clean.@johniek_comp has a very clean solution TBH

``````k,l=(2,3)
x = (0,-1,+1)
y = (0,-1,+1)
cell_u = ((k+a,l+b) for a in x for b in y)
print(list(cell_u))
``````

Inspired by one of the previous answers.

You can use min() and max() functions to shorten the calculations:

``````width = 3
height = 3

[(x2, y2) for x2 in range(max(0, x-1), min(width, x+2))
for y2 in range(max(0, y-1), min(height, y+2))
if (x2, y2) != (x, y)]
``````

Thank you to @JS_is_bad for a great hint about the neighbors. Here is the running code for this problem:

``````    def findNeighbours(l,elem):
#This try is for escaping from unbound error that happens
#when we try to iterate through indices that are not in array
try:
#Iterate through each item of multidimensional array using enumerate
for row,i in enumerate(l):
try:
#Identifying the column index of the givem element
column=i.index(elem)
except ValueError:
continue
x,y=row,column

#    hn=list(((x,y+1),(x,y-1))) #horizontal neighbours=(x,y+/-1)
#    vn=list(((x+1,y),(x-1,y))) #vertical neighbours=(x+/-1,y)
#    dn=list(((x+1,y+1),(x-1,y-1),(x+1,y-1),(x-1,y+1))) #diagonal neighbours=(x+/-1,y+/-1)
#Creating a list with values that are actual neighbors for the extracted index of array
neighbours=[(x,y+1),(x,y-1),(x+1,y),(x-1,y),(x+1,y+1),(x-1,y-1),(x+1,y-1),(x-1,y+1)]
#Creating a universe of indices from given array
index_list=[(i,j) for i in range(len(l)) for j in range(len(l[i]))]
#Looping through index_list and nested loop for neighbours but filter for matched ones
# and extract the value of respective index
return_values=[l[index][index] for index in index_list for neighbour in neighbours if index==neighbour]
return return_values,neighbours
except UnboundLocalError:
return []
``````

Inspired by johniek's answer here is my solution which also checks for boundaries.

``````def get_neighbours(node, grid_map):
row_index, col_index = node
height, width = len(grid_map), len(grid_map)
cells = list(starmap(lambda a, b: (row_index + a, col_index + b), product((0, -1, +1), (0, -1, +1))))
cells.pop(0) #  do not include original node
cells = list(filter(lambda cell: cell in range(height) and cell in range(width), cells))
return cells
``````
``````def numCells(grid):
x=len(grid)
y=len(grid)
c=0
for i in range(x):
for j in range(y):
value_=grid[i][j]
f=1
for i2 in range(max(0,i-1),min(x,i+2)):
for j2 in range(max(0,j-1),min(y,j+2)):
if (i2,j2) != (i,j) and value_<=grid[i2][j2]:
flag=0
break
if flag ==0:
break
else:
c+=1
return c
``````
• This determines the number of neighbours, if I understand it correctly, which isn't what the question is asking. May 13, 2022 at 19:53
``````def getNeighbors(matrix: list, point: tuple):
neighbors = []
m = len(matrix)
n = len(matrix)
x, y = point
for i in range (x -1, x +2): #prev row to next row
for j in range(y - 1, y +2): #prev column to next col
if (0 <= i < m) and (0 <= j < n):
neighbors.append((i,j))
return neighbors
``````

maybe you are checking a sudoku box. If the box is n x n and current cell is (x,y) start checking:

``````startingRow = x / n * n;
startingCol = y/ n * n
``````